MC9S08GB60A Datasheet, PDF(40/302 Page) Freescale Semiconductor, Inc – HCS08 Microcontrollers

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MC9S08GB60A Datasheet, PDF (40/302 Pages) Freescale Semiconductor, Inc – HCS08 Microcontrollers

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Chapter 3 Modes of Operation

clocks to the peripheral systems are halted to reduce power consumption. Refer to Section 3.6.1, âStop1

Mode,â Section 3.6.2, âStop2 Mode,â and Section 3.6.3, âStop3 Mode,â for specific information on

system behavior in stop modes.

I/O Pins

â¢ All I/O pin states remain unchanged when the MCU enters stop3 mode.

â¢ If the MCU is configured to go into stop2 mode, all I/O pins states are latched before entering stop.

â¢ If the MCU is configured to go into stop1 mode, all I/O pins are forced to their default reset state

upon entry into stop.

Memory

â¢ All RAM and register contents are preserved while the MCU is in stop3 mode.

â¢ All registers will be reset upon wake-up from stop2, but the contents of RAM are preserved and

pin states remain latched until the PPDACK bit is written. The user may save any memory-mapped

register data into RAM before entering stop2 and restore the data upon exit from stop2.

â¢ All registers will be reset upon wake-up from stop1 and the contents of RAM are not preserved.

The MCU must be initialized as upon reset. The contents of the flash memory are nonvolatile and

are preserved in any of the stop modes.

ICG â In stop3 mode, the ICG enters its low-power standby state. Either the oscillator or the internal

reference may be kept running when the ICG is in standby by setting the appropriate control bit. In both

stop2 and stop1 modes, the ICG is turned off. Neither the oscillator nor the internal reference can be kept

running in stop2 or stop1, even if enabled within the ICG module.

TPM â When the MCU enters stop mode, the clock to the TPM1 and TPM2 modules stop. The modules

halt operation. If the MCU is configured to go into stop2 or stop1 mode, the TPM modules will be reset

upon wake-up from stop and must be reinitialized.

ATD â When the MCU enters stop mode, the ATD will enter a low-power standby state. No conversion

operation will occur while in stop. If the MCU is configured to go into stop2 or stop1 mode, the ATD will

be reset upon wake-up from stop and must be reinitialized.

KBI â During stop3, the KBI pins that are enabled continue to function as interrupt sources that are

capable of waking the MCU from stop3. The KBI is disabled in stop1 and stop2 and must be reinitialized

after waking up from either of these modes.

RTI â During stop2 and stop3, the RTI continues to operate as an interrupt wakeup source. During stop1,

the RTI is disabled. In stop2, the RTI uses the internal 1 kHz RTI clock, but in stop3 mode, the RTI uses

either the external clock or the internal RTI clock. When the active BDM mode is enabled though, the

internal RTI clock is not operational.

SCI â When the MCU enters stop mode, the clocks to the SCI1 and SCI2 modules stop. The modules

halt operation. If the MCU is configured to go into stop2 or stop1 mode, the SCI modules will be reset

upon wake-up from stop and must be reinitialized.

SPI â When the MCU enters stop mode, the clocks to the SPI module stop. The module halts operation.

If the MCU is configured to go into stop2 or stop1 mode, the SPI module will be reset upon wake-up from

stop and must be reinitialized.

MC9S08GB60A Data Sheet, Rev. 2

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Freescale Semiconductor

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